CN214192919U - E-shaped target type efficient supermagnetic sewage separation device - Google Patents

Abstract

An E-shaped target type high-efficiency super-magnetic sewage separation device comprises a rectangular adsorption tank and a settling tank; the adsorption tank is internally provided with a baffle plate which is vertically distributed, the inner cavity of the adsorption tank is divided into a water inlet cavity and a water drainage cavity by the baffle plate, and an adsorption mechanism and a cleaning mechanism are respectively arranged in the water inlet cavity and the water drainage cavity; the adsorption mechanism comprises a plurality of adsorption plates which are uniformly distributed in the water inlet cavity or the water drainage cavity at intervals, magnet elements for adsorbing sludge flocs are arranged in the adsorption plates, and a shaft hole is formed in the middle of each adsorption plate; the cleaning mechanism comprises two rotating shafts, servo motors and scraping strips, the rotating shafts are respectively and rotatably matched in shaft holes of the two groups of adsorption plates positioned in the water inlet cavity and the water drainage cavity, the servo motors are fixed on the side walls of the adsorption tanks, and the scraping strips are arranged on the rotating shafts and positioned on the side parts of any adsorption plate; the utility model discloses reduce the processing cost, improve adsorption efficiency, reduce the operation power consumption.

Description

E-shaped target type efficient supermagnetic sewage separation device

Technical Field

The utility model relates to a sewage treatment device field, specific high-efficient super magnetism sewage separation plant of E type target formula that says so.

Background

In recent years, the device for treating sewage by applying the super-magnetic separation technology is well accepted by the industry and is well appreciated by the majority of users. The principle of the super-magnetic separation is that a certain amount of flocculating agent and magnetic seeds are added into the sewage to be treated to form flocs with different sizes. When the flocs are mixed and stirred and then flow through a plurality of groups of circular magnetic disks along with sewage, the sludge magnetic seed flocs are adsorbed on the magnetic disks and taken out of the water surface, then are separated by plastic scraping strips, enter the flocs for dispersion, and then enter a recovery magnetic drum to recover the magnetic seeds in the sludge for reuse.

Although widely used, such a super-magnetic separation technique has a number of disadvantages: 1. the manufacturing process of the magnetic disk as the core component is complex, a large amount of neodymium iron boron magnets are needed, and the manufacturing cost is high; 2. the contact effective area of the magnetic disk and the water body only accounts for 1/4 of the total area of the magnetic disk, and the adsorption utilization rate is extremely low; 3. the demagnetization of the sludge is difficult; 4. the overall dimension is big, need be equipped with corresponding reduction gears and running part in order to control the low-speed rotation of magnetic disc, and not only the noise is great, and power input is great moreover, and the power consumption is higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a high-efficient super magnetism sewage separation plant of E type target formula reduces the processing cost, improves adsorption efficiency, reduces the operation power consumption.

In order to solve the technical problem, the utility model discloses a concrete scheme does: an E-shaped target type high-efficiency super-magnetic sewage separation device comprises a rectangular adsorption tank and a settling tank communicated with the lower part of the adsorption tank;

the adsorption tank is internally provided with a partition board which is vertically distributed, the partition board divides the inner cavity of the adsorption tank into a water inlet cavity and a water drainage cavity, the upper part of the side wall of the adsorption tank corresponding to the water inlet cavity is provided with a water inlet pipe, the upper part of the side wall of the adsorption tank corresponding to the water drainage cavity is provided with a water drainage pipe, and the water inlet cavity and the water drainage cavity are respectively provided with an adsorption mechanism and a cleaning mechanism; the adsorption mechanism comprises a plurality of adsorption plates which are uniformly distributed in the water inlet cavity or the water drainage cavity at intervals, the adsorption plates are distributed in the vertical direction, the adsorption plates are respectively provided with a magnet element for adsorbing sludge flocs, the middle part of each adsorption plate is also provided with a shaft hole, and the shaft holes on the group of adsorption plates in the water inlet cavity or the water drainage cavity respectively correspond to each other in the horizontal direction; the cleaning mechanism comprises a rotating shaft, a servo motor and a plurality of scraping strips, the servo motor is used for driving the rotating shaft to rotate, the scraping strips are fixed on the rotating shaft, the number of the rotating shaft is two, the two rotating shafts are respectively and rotatably matched in shaft holes of two groups of adsorption plates positioned in the water inlet cavity and the water drainage cavity, the servo motor is fixed on the side wall of the adsorption box, the scraping strips are arranged on the rotating shaft and positioned on the side part of any adsorption plate, and therefore sludge adsorbed on the adsorption plates is downwards scraped into the sedimentation box through the scraping strips along with the rotation of the rotating shaft;

the settling tank is conical, the large end of the settling tank is connected with the bottom of the adsorption tank, the small end of the settling tank is provided with a sludge pump for sucking out slurry in the settling tank, and an electromagnetic valve is arranged between the sludge pump and the small end of the settling tank.

Preferably, the adsorption plate is square, the shaft hole is formed in the center of the adsorption plate, and the length of the scraping strip is half of the side length of the adsorption plate.

Preferably, slots for inserting and matching the two sides of the adsorption plate are formed in the two sides of the partition plate and the side wall opposite to the partition plate in the adsorption box.

Preferably, the adsorption plate comprises a shell formed by welding stainless steel plates and a plurality of separation strips which are distributed in the inner cavity of the shell along the transverse direction and the longitudinal direction of the shell respectively, and a plurality of clamping grooves for mounting the magnet elements are formed in the inner cavity of the shell by the separation strips in a separated mode.

Preferably, the outer wall of the settling tank is provided with a vibration motor for assisting the sludge in the settling tank to be discharged.

The utility model discloses in, after the sewage flow through after the mixing stirring is E word grid form and distributes and have the adsorption tank of adsorption plate, the mud wadding group that has small magnetic seed granule is adsorbed on the adsorption plate promptly. The scraper bars for scraping mud by a single pendulum are respectively arranged between the adsorption plates, the scraper bars are driven by the servo motor and the rotating shaft to rotate left by 180 degrees and then automatically rotate right by 180 degrees to scrape the mud on the left side of the adsorption plates into the settling box, and the scraper bars rotate right by 180 degrees and then automatically rotate left by 180 degrees to scrape the mud on the right side of the adsorption plates into the settling box. When mud sinks to a quantitative time, the solenoid valve of below is opened, and the sludge pump starts, sends mud to retrieving the magnetodrum and carries out the magnetism kind and retrieve, and the purified water is discharged by the drain pipe, compares with the traditional technology of the same kind, and this application has following beneficial effect:

1. the surface of the adsorption plate is in contact with the water body by 100 percent, the area of the adsorption plate required under the same adsorption effect is smaller, and compared with a rotary disc adsorption mode in the prior art in which only 40 percent of the surface of the adsorption plate is in contact with the water body, the manufacturing cost is greatly reduced;

2. the adsorption plate is fixed, has no rotating and decelerating moving part, no abrasion and no noise;

3. the overall dimension is relatively less, simple structure, and adsorption effect is good.

Drawings

Fig. 1 is a front view and a partial sectional view of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is a schematic structural view of the adsorption plate portion of the present invention;

the labels in the figure are: 1. sludge pump, 2, settling tank, 3, servo motor, 4, inlet tube, 5, adsorption tank, 501, intake chamber, 502, drainage chamber, 6, baffle, 7, slot, 8, drain pipe, 9, scraping strip, 10, pivot, 11, adsorption plate, 1101, magnet element, 1102, parting strip, 1103, casing, 12, shock motor, 13, solenoid valve.

Detailed Description

As shown in FIG. 1 and FIG. 2, the utility model discloses a high-efficient supermagnetic sewage separation plant of E type target mainly includes adsorption tank 5 and settling tank 2. The adsorption tank 5 is rectangular, the settling tank 2 is conical, and the large end of the settling tank 2 is connected and communicated with the bottom of the adsorption tank 5.

The adsorption tank 5 is provided with a partition plate 6 which is vertically distributed, and the partition plate 6 is parallel to the wide side of the adsorption tank 5 and divides the inner cavity of the adsorption tank 5 into a water inlet cavity 501 at the left side and a water drainage cavity 502 at the right side through the partition plate 6. Correspondingly, a water inlet pipe 4 for sewage to enter is arranged on the left side wall of the adsorption tank 5, and a water outlet pipe 8 for purified water to be discharged is arranged on the right side wall of the adsorption tank 5. An adsorption mechanism and a cleaning mechanism are respectively arranged in the water inlet cavity 501 and the water discharge cavity 502. After sewage let in adsorption tank 5 by inlet tube 4, the mud in the sewage is adsorbed by adsorption apparatus, and in being scraped into settling tank 2 under adsorption tank 5 by clearance mechanism by adsorbed mud, the purified water was finally discharged by drain pipe 8.

The adsorption mechanism comprises a plurality of adsorption plates 11 uniformly distributed in the water inlet cavity 501 or the water discharge cavity 502 at intervals. The two sides of the partition plate 6 and the side wall opposite to the partition plate 6 in the adsorption box 5 are provided with slots 7 for inserting and matching the two sides of the adsorption plate 11 so as to position and install the adsorption plate 11. As shown in fig. 3, the adsorption plate 11 has a housing 1103, a separator bar 102, and a magnet element 1101. The housing 1103 is made of a stainless steel thin plate, the division bars 102 are welded in the inner cavity of the housing 1103 along the longitudinal and transverse lines to form a plurality of slots, the magnet elements 1101 are installed in the slots one by one, and finally, a stainless steel plate (not shown) is welded and fixed to seal the magnet elements 1101, so that after sewage passes through the adsorption plate 11, sludge flocks are adsorbed on the outer side surface of the housing 1103 of the adsorption plate 11 by the magnet elements 1101.

A shaft hole (not shown in fig. 3) is further opened in the middle of all the attraction plates 11, and the inner periphery of the shaft hole is sealed to maintain the sealing performance of the magnet element 1101 in the housing 1103 of the attraction plate 11. The shaft holes of the group adsorption plates 11 in the water inlet cavity 501 or the water discharge cavity 502 correspond to each other in the horizontal direction, and bearings are arranged in the shaft holes. The cleaning mechanism comprises a rotating shaft 10, a servo motor 3 for driving the rotating shaft 10 to rotate and a plurality of scraping strips 9 fixed on the rotating shaft 10. The number of the rotating shafts 10 is two, and the two rotating shafts 10 are respectively and rotatably matched on bearings in shaft holes of the two groups of adsorption plates 11 in the water inlet cavity 501 and the water discharge cavity 502. The number of the servo motors 3 is two, and the servo motors are respectively fixed on the side wall of the adsorption box 5 and are in transmission connection with the two rotating shafts 10. The scraping strips 9 are arranged on the rotating shaft 10 and positioned at the side part of any adsorption plate 11, so that the sludge adsorbed on the adsorption plate 11 is downwards scraped into the settling tank 2 through the scraping strips 9 along with the rotation of the rotating shaft 10. The wiper strip 9 is made of a sealing material and is attached to the sealing plate housings 1103 on both sides.

The suction plate 11 in this embodiment is rectangular, and the shaft hole is opened at the center of the suction plate 11. The length of the wiper strip 9 is half of the side length of the suction plate 11, and the initial position of the wiper strip 9 is shown in fig. 1. In the process of cleaning the sludge adsorbed on the adsorption plate 11, the scraping strip 9 is driven by the servo motor 3 and the rotating shaft 10 to rotate left for 180 degrees and then automatically rotate right for 180 degrees to scrape the sludge on the left side of the adsorption plate 11 down into the settling tank 2, and after rotating right for 180 degrees, automatically rotate left for 180 degrees to scrape the sludge on the right side of the adsorption plate 11 down into the settling tank 2.

The settling tank 2 is conical, the large end of the settling tank 2 is connected with the bottom of the adsorption tank 5, the small end of the settling tank 2 is provided with a sludge pump 1 for sucking out slurry in the settling tank 2, and an electromagnetic valve 13 is further arranged between the sludge pump 1 and the small end of the settling tank 2. In order to avoid the blockage caused by the accumulation of the sludge in the settling tank 2, the outer wall of the settling tank 2 is provided with a vibration motor 12 for assisting the discharge of the sludge in the settling tank 2.

The utility model discloses in, after the sewage flow through inlet tube 4 after the mixing stirring flowed into adsorption tank 5, the mud wadding group that has small magnetic seed granule is adsorbed on adsorption plate 11 promptly. The servo motor 3 started at intervals scrapes the sludge into the settling tank 2 according to the cleaning sequence. When the sludge is settled to a certain amount, the electromagnetic valve 13 below is opened, the sludge pump 1 is started, the sludge is sent to the recovery magnetic drum for magnetic seed recovery, and the purified water is discharged by the water discharge pipe 8.

Claims (5)

1. The utility model provides a high-efficient super magnetism sewage separation plant of E type target-type which characterized in that: comprises a rectangular adsorption tank (5) and a settling tank (2) communicated with the lower part of the adsorption tank (5);

the adsorption tank (5) is internally provided with a partition plate (6) which is vertically distributed, the inner cavity of the adsorption tank (5) is divided into a water inlet cavity (501) and a water drainage cavity (502) by the partition plate (6), the upper part of the side wall of the adsorption tank (5) corresponding to the water inlet cavity (501) is provided with a water inlet pipe (4), the upper part of the side wall of the adsorption tank (5) corresponding to the water drainage cavity (502) is provided with a water drainage pipe (8), and the water inlet cavity (501) and the water drainage cavity (502) are respectively provided with an adsorption mechanism and a cleaning mechanism; the adsorption mechanism comprises a plurality of adsorption plates (11) which are uniformly distributed in the water inlet cavity (501) or the water drainage cavity (502) at intervals, the adsorption plates (11) are distributed in the vertical direction, magnet elements (1101) used for adsorbing sludge flocs are arranged in the adsorption plates (11), a shaft hole is formed in the middle of each adsorption plate (11), and the shaft holes in the group of adsorption plates (11) in the water inlet cavity (501) or the water drainage cavity (502) correspond to each other in the horizontal direction; the cleaning mechanism comprises a rotating shaft (10), a servo motor (3) and a plurality of scraping strips (9), wherein the servo motor (3) is used for driving the rotating shaft (10) to rotate, the scraping strips (9) are fixed on the rotating shaft (10), the two rotating shafts (10) are respectively and rotatably matched in shaft holes of two groups of adsorption plates (11) positioned in a water inlet cavity (501) and a water drainage cavity (502), the servo motor (3) is fixed on the side wall of the adsorption box (5), the scraping strips (9) are arranged on the side portion, positioned on any adsorption plate (11), of the rotating shaft (10), and therefore sludge adsorbed on the adsorption plates (11) is downwards scraped into the sedimentation box (2) along with the rotation of the rotating shaft (10) through the scraping strips (9);

the settling tank (2) is conical, the large end of the settling tank (2) is connected with the bottom of the adsorption tank (5), the small end of the settling tank (2) is provided with a sludge pump (1) for sucking out slurry in the settling tank (2), and an electromagnetic valve (13) is arranged between the sludge pump (1) and the small end of the settling tank (2).

2. The E-type target type high-efficiency supermagnetic sewage separation device according to claim 1, which is characterized in that: the adsorption plate (11) is square, the shaft hole is formed in the center of the adsorption plate (11), and the length of the scraping strip (9) is half of the side length of the adsorption plate (11).

3. The E-type target type high-efficiency supermagnetic sewage separation device according to claim 1, which is characterized in that: slots (7) which are used for inserting and matching the two sides of the adsorption plate (11) are respectively arranged on the two sides of the partition plate (6) and the side wall of the adsorption box (5) opposite to the partition plate (6).

4. The E-type target type high-efficiency supermagnetic sewage separation device according to claim 1, which is characterized in that: the adsorption plate (11) comprises a shell (1103) formed by welding stainless steel plates and a plurality of separation strips (1102) which are respectively distributed in the inner cavity of the shell (1103) along the transverse direction and the longitudinal direction of the shell (1103), and a plurality of clamping grooves for mounting the magnet elements (1101) are formed in the inner cavity of the shell (1103) by the separation strips (1102).

5. The E-type target type high-efficiency supermagnetic sewage separation device according to claim 1, which is characterized in that: the outer wall of the settling tank (2) is provided with a vibration motor (12) for assisting the discharge of sludge in the settling tank (2).

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